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#carousel1 li{ width:150px; height:180px; } #carousel2 li{ width:150px; height:180px; } Quantum Science with Rydberg Atoms

mercredi 09 novembre 2022
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The exaggerated properties of Rydberg atoms (enormous sizes, very long life times..) make them extremely sensitive to their environment. These giant atoms can now be prepared and manipulated by laser excitation with an exquisite precision. They interact very strongly with microwave photons and between each other, at distances which are huge at the atomic scale. These features make them ideal tools to explore fundamental quantum phenomena, to build quantum gates and to realize quantum simulators of condensed matter systems.

In the first part of the talk I will recall the early history of Rydberg atom physics and the Cavity Quantum Electrodynamics experiments which have made possible the entanglement of atoms and the non-destructive manipulation and detection of single photons. In the second part, I will describe recent studies in which arrays of Rydberg atoms are interacting with each other in a controlled way, opening promising perspectives in quantum information science.

Conférence donnée par Serge Haroche (Laboratoire Kastler Brossel ENS-PSL, Collège de France) lors du colloquium 2021/2022 du département de physique de l'ENS.

Thèmes : Physique
Catégories: Colloquium / Séminaire général du département de physique
Mot-clés : Atome, Atome froid, Photon, Physique quantique, électro-dynamique quantique , ion

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Auteur(s)

Serge Haroche
Ecole normale supérieure / Collège de France
Physicien

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Cursus :

Né en 1944 à Casablanca, Serge Haroche a fait ses études à l'École normale supérieure. Il a été chercheur au CNRS, maître de conférences à l'École polytechnique, professeur à l'université Pierre-et-Marie-Curie et membre de l'Institut de France. Il a également enseigné pendant neuf ans à l'université de Yale, aux États-Unis. Fidèle à l’ENS, il y dirigea le département de physique de 1994 à 2000. Membre de l'Académie des sciences, il est administrateur du Collège de France depuis le 1er septembre 2012 et dirige depuis 2001, le groupe d'électrodynamique des systèmes simples au sein du laboratoire Kastler Brossel (École normale supérieure/UPMC/CNRS/Collège de France). Le prix Nobel de physique 2012 lui a été décerné pour ses travaux en physique quantique, travaux qui ont permis de mesurer et de manipuler des systèmes quantiques individuels.

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Dernière mise à jour : 26/01/2023

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